DE4321224A1 - Tape cassette - Google Patents

Description

The present invention relates to a tape cassette such as a video cassette or a digital audio tape (DAT), at which is a recording medium, e.g. B. a band-like medium, in is housed in a housing.

Generally, an information medium for a video cassette for protection in a synthetic resin case housed as it is easy to use dust or Dirt picks up and is damaged. The housing is made posed by an upper and a lower half case ABS resin (acrylonitrile-butadiene-styrene copolymer resin),  PS resin (polystyrene resin) or PC resin (polycarbonate resin) be put and the two housings on their fusion bond areas are connected by fusion bonding.

As shown in Fig. 6, a conventional video cassette is constructed so that on an upper half-housing a and a lower half-housing b are each melt-bond protrusions c out, matching surfaces of the melt-de-protrusions or the outer peripheral walls of one of the housings are provided with fusible link ribs d and a fusible link horn e is used to connect the two housings into one unit. High energy is required to melt crystalline resin during melt bonding. If the fusible bond ribs are coarse and long, the time required for fusible bond lengthening and the relationship between the mating surfaces and the fusible bond ribs sometimes creates difficulties in melt bonding. The fusion bonding of the fusion bonder ribs has a slight tendency to shear on the upper or lower half housing and there is a possibility that the lower and the upper half housing will come apart due to a torsion or a shock when falling, which acts on the two half housings . In order to increase the melt bond strength, the number of melt bond ribs must be increased. This means that it is necessary to melt bond a large area to increase the melt bond strength. This causes wrinkle problems by melting a surface of the half-cases so that they have a bad appearance, reducing the market value and making them unreliable.

It is an object of the present invention to solve problems the conventional tape cassette. This and other objects of the present invention are achieved by Tape cassette solved according to claim 1.  

According to the invention, a tape cassette is created that has a has simple structure and is cheap, which is easy to melt can be bonded, even if the upper and lower half housing made of crystalline resin, and this independently on the thickness of the half housing, at which the Melt bond strength is increased, so that the upper and lower half-shell se are firmly connected, and who is able to score sion or a vibration when falling down on the half case acts to resist and which is safe and in is highly reliable and looks good.

Preferably, the total area of the stop surface is Carrier ribs at least the same as the area of the Melt bond surface of the pile-like projection.

The carrier rib and the contact rib are preferably on formed outer edge of the pile-like projection and protrude radially from this.

If the upper and lower half housing before bonding too one unit with the help of a melt bond horn are added, according to the invention, the pile-like Projection on one of the half housings, e.g. B. on the upper half housing, and the hollow cylindrical projection on the other Half housing, e.g. B. in the lower half of the housing adds. The presence of the support rib leads to the Gap between the melt bond surfaces. The horn will into the hollow recess of the hollow cylindrical projection introduced to punctiform the melt bond surfaces of the pile-like projection and the hollow cylindrical front jump, which causes the melt bond surfaces to close a unit connected by intermolecular bonding. As a result, the connection between the two is strengthened Half housing reached so that it is sheared  resists that on the half housing in longitudinal and transversal direction, and the melt bond ability will be improved. In addition, that for fusion bonding required oscillating energy reduced so that a Tape cartridge is created that is highly reliable is.

According to the present invention, it is possible to use one Carry out the fusion bonding process and the two half-layers to connect the housing firmly, even if the half housing is off crystalline resin, regardless of how thick the half cases are. He can make an exact connection be enough and melt bonding on a narrow Melt bond area is sufficient so that the assembly is simplified. The present invention offers practical Advantages in that the tape cassette has a twist or a shock from falling down on it act, can withstand, a high melt bond strength has, can be used safely without one adverse effect on the property of a recording and Playback medium has a good appearance that Quality increased, a significantly improved assembly and closing enables reliability and increases the market value.

The invention is in the following with further details in an embodiment with reference to drawings he purifies in which

Fig. 1 is a perspective view showing an embodiment of the present invention, the parts being shown at a distance from one another,

Fig. 2 is an enlarged perspective view showing portions of a lower and an upper half case shows, the two housings are separated from each other,

Fig. 3 is a sectional view in the longitudinal direction showing the parts shown in Fig. 2 bond prior to the melt,

Fig. 4 is a cross section in the longitudinal direction, which shows the bond in Fig. 2 parts shown by the melt,

Fig. 5 is an enlarged longitudinal cross section showing the parts shown in Fig. 4, and

Fig. 6 is a longitudinal cross section showing parts of connected half-housings in a convention tape cassette.

The present invention will now be described in detail with reference to a preferred embodiment shown in Figs. 1-5 . A tape cassette consists of an upper half housing 1 and a lower half housing 2 , which consist of a non-crystalline resin such as polystyrene or a crystalline resin such as polypropylene resin, polyethylene resin and polyamide resin. In order to connect the two half-housings to achieve an arrangement for receiving a tape-like medium by melt bonding, the upper half-housing or the lower half-housing, e.g. B. the lower half housing 2 , provided with cylindrical projections 4 , in which a hollow recess 4 ₁ and a receiving recess 4 _{2 are} formed, which are separated from each other by a partition 4 ₃ . The other half housing, e.g. B. the upper half housing 1 , has pile-like projections 3 , which stand there and correspond to the cylindrical projections 4 on the lower half housing. On the outer edge of the pile-like projections, contact ribs 16 ₁ are provided, which are intended to be inserted into the corresponding receiving recess 4 ₂ , and support ribs 16 are provided. The upper end surface of the projections 3 and the lower end surface of the partition 4 _{3 of} the cylindrical projections 4 are guided out flat, so that one obtains melt bond surfaces 6 and 6 ₁ . A melt bond horn 8 is inserted into the hollow recess 4 _{1 of} the cylindrical projections 4 to obtain a tape cassette in which the melt bond surfaces 6 and 6 ₁ are connected to one another by intermolecular bonding at point bond locations 9 .

The outer edge of the pile-like projections 3 is provided with a plurality of support ribs 16 in the radial direction. The carrier ribs 16 have a guide end portion which is stepped such that a stop surface 6 ₂ is obtained and the contact rib 16 _{1 is located} on the guide edge. When the contact rib 16 _{1 is} inserted into the receptacle recess 4 ₂ formed in the cylindrical protrusions 4 , a surface 6 _{3 of} the cylindrical protrusions 4 for receiving the carrier rib is supported by the abutment surface 6 _{2 of} the carrier ribs 16 , so that a Gap S between the melt bond surfaces 6 and 6 ₁ forms. The gap S acts as a basin for a molten portion when the point melt-bonding is carried out. The presence of the gap can prevent a lifting phenomenon from occurring after the melt bonding and has a shape that effectively prevents shrinkage. The con tact ribs 16 ₁ are capable of positioning bezüg Lich the cylindrical projections 4 to prevent the upper and lower half housings from sliding out of each other.

The total area of the abutment surfaces 62 of the carrier ribs 16 is preferably greater than or equal to the area of the melt bond surface 6 in order to ensure strength and stability in the case of point melt bonding.

The fusion bond surface 6 has a recess which is formed therein by an insertion projection 18 of the fusion bond horn 8 , an integral structure being created by point fusion bonding. In the hollow before cracks 4 , the melt bond surface 6 _{1 is formed} separately from the separating surface 5 of the upper and lower half-housing 1 and 2 . Such an arrangement is effective because the horn can be easily melt-bonded and the time and energy required for melt-bonding can be reduced.

In the illustrated embodiment yields the zylin-cylindrical projections 4 in which the melting Bonde surface 6 ₁ is formed, and the pile-like projections 3, in which the melting Bonde surface 6 of the cylindrical projections 4 corresponding to the melting Bonde surface 6 _1, is formed by one uses protrusions, which are arranged opposite one another in housing corners, which are ribs between the outer side walls of the half-housing and separating 7 , which define a receiving area 10 for a band 11 . As the location of the cylindrical protrusions and the pile-like protrusions, the four corners in the half housings, which are normally chosen as thread positions, or a central region in the half housings can be selected. This arrangement provides good overall balance and rigidity for the cassette halves and is practically free from the poor appearance due to squeezing out a molten portion after the melt bonding.

In the hollow cylindrical projections 4 , the partition wall 4 ₃ between the hollow recess 4 ₁ and the receiving recess 4 _{2 is formed} at a lower level than the outer surface of the half-housing and the melt-bond surfaces 6 ₁ are located with respect to the housing separating surface 5 within the Half housing. In addition, the carrier ribs 16 , which are formed on the outer edge of the protrusions 3 and protrude radially therefrom, maintain the gap S between the melt bond surfaces 6 and 6 ₁ to form a pool for a molten part during the point melt bond, taking into account slight point fusion bonding.

In the case consisting of the upper half case 1 and the lower half case 2 , a tape 11 is arranged so that it can be wound on a pair of tape rolls 12 and 12 which are rotatably provided in the case. It also has a front cover 13 for opening and closing the housing opening, which is pivotally arranged, whereby a tape cassette is obtained.

According to the embodiment, the positioning is achieved by inserting the contact ribs 16 _{1 of} the pile-like projections 3 into the recess 4 _{2 of} the hollow cylindrical projections 4 , which improves the accuracy and the work result of the fusion bonding process.

As shown in FIG. 5, which is an enlarged cross section of the melt bond areas shown in FIG. 4, the melt bond surface 6 has a recess formed by the insertion protrusion 18 of the horn 8 to secure the intermolecular bond.

Reference list

1 upper half housing
2 lower half housings
3 pile-like projection
4 cylindrical projection
4 ₁ hollow recess
4 ₂ Recording recess
4 ₃ partition
5 Parting surface of the housing parts
6 , 6 ₁ melt bond area
6 ₂ stop surface
6 ₃ contact surface
7 separating rib
8 melt bond horn
9 Melt bond area
10 Recording area for tape
11 volume
12 tape roll
13 front flap
16 support rib
16 ₁ contact rib
18 Melt bond horn protrusion
S gap

Claims (3)

1. tape cassette having a housing for receiving a tape-like medium, wherein the housing is made of a synthetic resin and includes an upper half housing (1) and an un teres half-housing (2), the bond points to each other at Ver are connected to form a unit, characterized by a cylindrical projection ( 4 ) which is formed either on the upper half housing ( 1 ) or the lower half housing ( 2 ) and in which a hollow recess ( 4 ₁ ) and a receiving recess ( 4 ₂ ) are formed, which are separated from one another a partition wall (4 ₃₎ are separated, a post-like projection (3) which is formed to protrude on the other half-housing thereof and having a contact rib (16 ₁₎ and a support rib (16), wherein the contact rib (16 ₁₎ adapted is to be inserted into the receiving recess ( 4 ) of the cylindrical projection ( 4 ), and the support rib ( 16 ) is set up to have a stop surface ( 6 ₃ ) to wear the cylindrical projection ( 4 ), a stop surface ( 6 ₂ ) being formed on the support rib ( 10 ) in order to receive the stop surface ( 6 ₃ ) of the cylindrical projection ( 4 ) and a gap (S) between Forming melt bond surfaces ( 6 , 6 ₁ ) of the cylindrical projection and the pile-like projection when the contact rib ( 16 ₁ ) of the pile-like projection ( 3 ) is inserted into the receiving recess ( 4 ₂ ) of the cylindrical projection ( 4 ) during assembly, and wherein the two melt bond surfaces ( 6 , 6 ₁ ) are melt-bonded to a single unit by inserting a melt bond horn ( 8 ) from the hollow recess ( 4 ₁ ). 2. Tape cassette according to claim 1, characterized in that the total surface area of the striking surface of the carrier rib ( 6 ₂ ) is at least as large as the surface area of the melt bond surface ( 6 ) of the pile-like projection ( 3 ). 3. A tape cassette according to claim 1 or 2, characterized in that the support rib (16) and the contact ridge (16 ₁₎ at the outer edge of said pole-like before the jump (3) are formed so as to project radially therefrom.